SU684691A1 - Dc-to-dc voltage converter - Google Patents

Description

3 and the other with the second input and output terminals, and the control system, with two output transformers, the secondary windings of the first of which are associated with control transitions beyond the thyristors, and the second with control transitions of switching thyristors, the output transformers are equipped additional windings, with the additional windings of the first transformer being connected through additional diodes in parallel to the switching thyristors, the additional windings of each transf- fitor are connected to the thyristors, and been consistent with each auxiliary thyristor is further included clipping diode. The drawing shows a converter, a circuit diagram in principle. The converter contains main thyristor 1, co-switching thyristors 2-3, charging thyristors 4-5, cut-off diops 6-9, switching capacitor 10, switching choke 11, first output transformer 12, main secondary windings 13-14 connected with control charge thyristor transitions, additional wired windings 15–16, additional diodes 17–18, secondary output transformer 19, main secondary windings 20–21 associated with control switches of switching thyristors, additional windings 22–23, additional diodes 24-25, n Load 26, reverse diode 27. The converter operates as follows. When the control system is operating, control pulses from the main windings 13 and 14 of the output transformer 12 are fed to control transitions of charge thyristors 4.5, ac of the main windings 20, 21, and output transformer 19 to control switchings of switching thyristors 2, 3. These pairs of thyristors 2, 3 and 4, 5 work alternately. When the thyristors 4, 5 are unlocked, the commutation capacitor 10 is charged along the circuit: positive output of the power supply, choke 11, diode 7, thyristor 4, co-capacitor 10, thyristor 5, diode 8, negative lead of the power supply. At the end of the charging process, the thyristors 4, 5 are closed, and the capacitor 10 is charged with the polarity of the voltage shown without a switch. When the thyristors 2, 3 are unlocked, the commutation capacitor 10 recharges along the circuit: a positive terminal of the power source, a choke 11, a diode 6, a thyristor 2, a capacitor 10, a thyristor 3, a diode 9, a negative terminal of the power source. in the process of that recharging, a reverse 1 fuse is applied to the main thyristor and it is locked. At the end of the recharge process, the thyristors 2, 3 are locked, and the capacitor 10 is charged with the polarity of the voltage shown in brackets. In this case, if one of the thyristors of the thyristor bridge for any reason turns out to be open (malfunction, unlocking from interferences, etc.), for example, thyristor 2, then the additional winding 15 will turn out to be short-circuited diode 17 and thyristor 2, In this case, control pulses from the windings 13, 14 are not supplied to thyristors 4 5, as a result of which a through short circuit will not occur across the circuit. The positive terminal of the power supply, droplets 11, diode 6, thyristor 2, thyristor 5, diode 8, the negative terminal of the power source and thyristors 2, 5 will not fail. Dp elimination of the discharge of the switching capacitor 10 through additional windings 15, 16, 22, 23 during normal operation of the thyristor bridge in each arm of the thyristor bridge in series with the thyristors included blocking diodes 6-9. Thus, the use of additional windings with diodes in the output control transformers for charging and co-switching thyristors makes it possible to prevent the output of charging and switching thyristors from malfunctioning and thus increasing the reliability of the converter operation. of the invention The DC / DC converter, comprising a switching choke and a main thyristor, connected in series between the first input and output pins, and an auxiliary bridge formed by charging and switching thyristors, with a switching capacitor in the diagonal of the alternating current, bridge current is connected to the junction point of the switching throttle and the main thyristor, and the other to the second input and output pins, and a control system with two outputs one transformers, the secondary windings of the first one are associated with control transitions of charge thyristors, and the second one - with control transitions of switching thyristors, which is limited by the fact that, for the sake of reliability, the output transformers are equipped with additional windings the first transformer is connected via additional diodes parallel to the switching thyristors, the additional windings of the second transformer. - charge thyristors, and

56846916

successively with each auxiliary one. 1. Zabrodin Yu. S., Forced thyristor nodes, additionally included capacitor switching, shut-off thyroid diode., M., Energie, 1974,

Sources of information received in sec. 6, fig. 1-1, c. attention poi expertise2 .. Also, with. 12, fig. 1-9.

"M